Add to ORKGRecent studies showed that kinematic interaction is relevant for the design of large-diameter concrete piles in soft soils both in homogeneous and layered deposits. Especially, it was found that exists a range of admissible pile diameters able to resist to combined inertial and kinematic bending at the pile-head. Most of these studies assume that the soil is a linear-viscoelastic material and the pile nonlinear behavior is neglected. Here a BEM-based code, called KIN SP, is used to provide new insights about pile-soil interaction under seismic loads. The analyses are performed in the time domain and nonlinear soil response is modelled with the Ramberg-Osgood constitutive law. Moreover, a constitutive model for reinforced concrete piles has ...
In geotechnical mediums where the bearing capacity of upper layers of soil is not suitable for use o...
In this paper, a soil-pile-structure model is tested on a shaking table subject to both a sinusoidal...
Saturated soils, particularly cohesionless soils, may liquefy when subjected to earthquake excitatio...
Soil-pile kinematic interaction develops as a consequence of soil movements during seismic excitatio...
The kinematic bending and filtering potential of a fixed-head pile are explored when large shear str...
The problem of kinematic bending moments imposed at the head of a single pile during the passage of ...
This paper presents the results of different types of dynamic numerical analysis performed to evalua...
Pile-soil kinematic interaction arises because of the soil deformations induced by seismic actions. ...
Kinematic effects at the head of a flexible vertical pile embedded in a two-layer soil deposit are i...
This paper reviews some aspects of pile-soil kinematic interaction in light of recent research findi...
The kinematic response of flexible piles in inhomogeneous soil is explored under harmonic and seismi...
This paper presents the results of an extensive parametric study on single piles and pile groups em...
During seismic shaking soil movements force piles to deform, resulting in a complex interplay betwee...
This research provides an insight into the previously unexplored aspects of kinematic pile bending, ...
This paper presents a comprehensive numerical study on kinematic response of vertical and batter pil...
In geotechnical mediums where the bearing capacity of upper layers of soil is not suitable for use o...
In this paper, a soil-pile-structure model is tested on a shaking table subject to both a sinusoidal...
Saturated soils, particularly cohesionless soils, may liquefy when subjected to earthquake excitatio...
Soil-pile kinematic interaction develops as a consequence of soil movements during seismic excitatio...
The kinematic bending and filtering potential of a fixed-head pile are explored when large shear str...
The problem of kinematic bending moments imposed at the head of a single pile during the passage of ...
This paper presents the results of different types of dynamic numerical analysis performed to evalua...
Pile-soil kinematic interaction arises because of the soil deformations induced by seismic actions. ...
Kinematic effects at the head of a flexible vertical pile embedded in a two-layer soil deposit are i...
This paper reviews some aspects of pile-soil kinematic interaction in light of recent research findi...
The kinematic response of flexible piles in inhomogeneous soil is explored under harmonic and seismi...
This paper presents the results of an extensive parametric study on single piles and pile groups em...
During seismic shaking soil movements force piles to deform, resulting in a complex interplay betwee...
This research provides an insight into the previously unexplored aspects of kinematic pile bending, ...
This paper presents a comprehensive numerical study on kinematic response of vertical and batter pil...
In geotechnical mediums where the bearing capacity of upper layers of soil is not suitable for use o...
In this paper, a soil-pile-structure model is tested on a shaking table subject to both a sinusoidal...
Saturated soils, particularly cohesionless soils, may liquefy when subjected to earthquake excitatio...